Magnetic Monopoles from Global Monopoles in the presence of Kalb-Ramond Torsion

TL;DR

This paper explores classical solutions for electromagnetic monopoles induced by gravitational monopoles with torsion, constrained by LHC data, highlighting potential links to string-inspired theories.

Contribution

It introduces a novel classical solution for electromagnetic monopoles in the presence of Kalb-Ramond torsion, connecting gravitational monopoles to string-inspired low energy theories.

Findings

Derived classical solutions for monopoles with torsion

Used LHC data to constrain model parameters

Indicated potential for monopole detection in high-energy experiments

Abstract

Possible classical solutions for electromagnetic monopoles induced by gravitational (global) monopoles in the presence of torsion are found. Such solutions rely on a non-zero (Kalb-Ramond) torsion strength, which may characterise low energy theories inspired from string models. Bounds from the current run of the LHC experiments are used to constrain the parameters of the model, but because the production mechanism depends on the details of the model and its ultraviolet completion, such bounds are presently only indicative.